DE2847544A1 - Spiral timepiece balance spring - has hooked ends and deformed section in outermost coinciding over which outer end fits - Google Patents

Abstract

The spring comprises a steel band (1) around into a spiral, with a hook provided at the outer end (2) for attachment to the spring casing and a further hook at the inner end for attachment to the spring casing and a further hook at the inner end for attachment to the spring roller etc. The outermost complete winding of the spring is deformed at the point adjacent the hooked outer end (2) so that the latter fits over the deformed section (3) of the spring. Pref. the deformed section (3) is obtained by material deformation of the steel band (1) before it is wound, at a distance from the end which corresponds to the outer dia. of the wound spiral spring. The deformation may be in the form of a fold in the steel band (1) in a direction perp. to the latter. The deformed section (3) and the hooked outer end (2) together fit over a correspondingly shaped retaining pin (6).

Description

Mainspring

The present invention relates to a spring steel strip manufactured, spiral-wound mainspring, which at one end with a to Fastening in a receiving housing serving outer hook and at the other end with an inner hook serving for attachment to a winding mandrel or the like is.

Such springs, which are used for various purposes, e.g. in drives, clocks, Belt retractors for seat belts, starters or the like are used, - if they are not kept on the outer periphery by suitable measures - the effort to unroll again into a tension-free state.

It is known that after winding the mainspring into a metal or plastic ring. Of the Inside diameter of this Rings is equal to or smaller than the inner diameter of the mainspring receiving Housing designed so that the mainspring can be converted into the housing by pushing it off of the ring is possible, at the same time the hook in a corresponding Device of the receiving housing is suspended. When installing such drive springs there is now a risk that the spring will pop open, which is a considerable risk of accident represents and would deform the spring or make it unusable.

To avoid this, it is known to remove the spring after winding wind back into a sheet metal or plastic intermediate housing, which then together with the mainspring is inserted into the actual housing. The attachment the outer end of the mainspring then takes place by means of the protruding hook the mainspring or by a special shape of the intermediate housing.

Common to both versions mentioned is the additional use of special rings or intermediate housings, which increase the effort and handling make more difficult.

After all, it is also known that the mainsprings thereby in their to keep coiled shape that the last outer turn riveted into a ring will. This riveting represents an additional operation, and also the cross-section of the spring in this area is weakened by the holes for the rivet which increases the risk of breakage at this point.

Common to all of these known designs are the disadvantages that, for example, due to the different desired designs, an extensive Storage is necessary so that an automated installation of the mainsprings is hardly possible or it is only possible with great effort that the spring in the installed state is not adequately secured against unhooking or tearing through of the outer hook and that, after all, the same spring is not available for both left-handers. as well as for clockwise rotation can be inserted.

The invention aims to provide a remedy here. The invention as it is in the claims is characterized, solves the problem of creating a mainspring, which is held securely in the spiral shape without additional parts that has a good and safe support of the outer end when installed and that in a simple manner to different outside diameters and different Running directions can be turned off, so that storage is significantly simplified will.

The advantages achieved by the invention are essentially therein to see that the mainspring can be easily inserted into the receptacle housing, without rings or intermediate housings or even riveting being necessary. Through this the insertion of the spring into the receiving housing can be automated, leading to contributes to lower costs. A cross-sectional weakening of the spring, like it is present, for example, in the version with the riveted outer winding, is completely omitted here. In addition to avoiding the risk of jump will also be sure to unhook the spring from the outside fastener as well Avoid tearing through the outer hook. Warehousing can be simplified considerably because the required different outer diameters are simply changed the distance between the outer hook and the bend can be achieved. The Triekteder according to the invention can be inserted for both left and right rotation, which is another advantage in addition to the good support of the outer end of the mainspring represents. Overall, the mainspring according to the present invention is distinguished in that all these advantages mentioned with a single embodiment can be achieved.

In the following the invention is illustrated with reference to the drawing Embodiments explained in more detail.

It shows: Fig. 1 the outer end of the mainspring in the relaxed plane State Fig. 2 is a side view of the coiled spring with the receiving device of the otherwise not shown receiving housing Fig. 3 is a plan view of the spring according to FIG. 2, FIGS. 4 and 5, side views of further exemplary embodiments a coiled spring with differently designed end sections (underneath the outer end of the mainspring is shown in the relaxed state).

In the case of the mainspring 1, the outer end of which is shown in FIG. 1 in the relaxed state is shown, a fold 3 is provided at a distance 1 from the outer hook 2, which extends in the opposite direction to the outer hook 2 from the plane of the tape extends. The fold 3 is inclined to the plane of the tape in the direction of the outer hook 2 inclined so that an undercut 4 is formed. Through this training it is possible that, as shown in Figure 2, after winding the spring of the outer hook 2 over the fold 3 can be placed and engages in the undercut 4, so that the Spring end is fixed by means of a form fit on the outer turn of the mainspring. The fold 3 and the outer hook 2 pushed over it engage in after insertion the receiving housing 5, not shown in detail, over one of the shape of the fold 3 accordingly formed, axially protruding pin 6 of this receiving housing 5 and are thus set in the circumferential direction. The axial projection 6 at a small distance opposite side edge 7 of the receiving housing 5 prevents it in more effective Way unhooking or spreading the outer hook 2, so that a secure attachment is guaranteed. By supporting both the fold 3 and the outer hook 2 on the axial projection 6, it is practically impossible to tear through the outer hook. The fold 3 inclined at an angle to the plane of the tape and the correspondingly formed axial fold Projection 6 provide the necessary support for the mainspring to run smoothly the outer end of the spring.

The required different outside diameter (d) of the finished Power springs can be used in a simple manner by adjusting the length 1 can be achieved on the device with which the outer hook 2 is bent.

The outer hook 2 and the fold 3 can be done in one operation be formed, but it is also possible to use the mainspring with the bend 3 and to prepare an end section of any length, after placing the order the outer hook 2 at a distance 1 corresponding to the desired outer diameter of the The mainspring is molded on and any protruding parts removed. About the shaping the fold 3 or the outer hook 2 to facilitate the tape in these areas annealed.

In order to achieve a synv.letric design of the receiving housing, in which the spring can be used for both clockwise and counterclockwise rotation the spring can be designed as shown in FIGS. In the exemplary embodiment according to Fig. 4 is the spring end between the outer hook 2 and the fold 3 with a further fold 8 provided, which - in the relaxed state of the spring in the same Direction extends from the band plane. The receiving housing 5 is then more expedient Way with three axial projections 6, 6 'and separated by slots 9, the projections 6 and 6 'being symmetrical to that provided by the projection 9 going central plane are formed. This design of the spring and the Housing, the spring can be in the same housing either for right or used for counter-clockwise rotation. This is achieved depending on the position the feather with the fold 3 and the Outer hook 2 on the projection 6 or the projection 6 'is placed.

In the embodiment of FIG. 5, the fold 3 is the same Direction as the outer hook 2 directed from the belt plane. The outside hook 2 is rolled up at its free end, so that an almost ring-shaped eyelet 10 results, which is pushed over the here annular projection 9 and in this way the spring 1 is additionally fixed in the receiving housing. This eyelet 10 simultaneously engages in the fold 3, so that the spring in its sinuous shape is held, the undercut surfaces in the fold 3, the outer hook 2 in addition prevent radial outward movement.

There are of course others within the scope of the inventive concept constructive changes are possible, which should not be listed in more detail. The material deformation can be made in other ways besides a fold. That also applies to the shape of the outer hook that engages over or in the deformation of the material.

Blank page

Claims (14)

Claims made of spring band steel, to be wound up in a spiral Mainspring attached to one end with a for attachment in a receiving housing serving outer hook and at the other end with one for attachment to a winding mandrel Or the like. Serving inner hook is provided, characterized in that the with the outer hook (2) provided spring end by means of a form fit on the outer turn of the Spring (1) is set. 2. Mainspring according to claim 1, characterized by one in one from the desired outer diameter of the coiled spring (1) determined distance (1) Material deformation (3) provided by the outer hook (2), over which after winding the spring of the outer hook (2) engages. 3. Mainspring according to claim 1, characterized by one in one distance determined by the desired outer diameter of the coiled spring (1) (1) Material deformation provided by the outer hook (3) into which after winding the spring of the outer hook (2) engages. 4. Mainspring according to one of claims 2 or 3, characterized in that that the material deformation is formed by a fold (3) in the spring band. 5. mainspring according to claim 4, characterized in that the Fold (3) extends substantially perpendicularly from the plane of the belt. 6, mainspring according to claim 4, characterized in that the fold (3) when the spring is not wound, it is inclined at an angle to the plane of the belt. 7. Mainspring according to claim 6, characterized in that the fold (3) is inclined obliquely to the belt plane in the direction of the outer hook (2). 8. mainspring according to claim 6, characterized in that the fold (3) is inclined obliquely to the belt plane in the direction of the outer hook (2) away. 9. Mainspring according to claim 4, characterized in that the fold (3) in the unwound state of the spring parallel to the plane of the belt, i.e. H. as lying Crease is formed. 10. Mainspring according to one of claims 5 to 9, characterized in that that itself. the fold (3) in the not wound state of the spring in the outer hook (2) in the opposite direction from the plane of the belt. 11. Mainspring according to one of claims 5 to 8, characterized in that that the fold (3) in the non-twisted state of the spring in the same Direction as the outer hook (2) extends from the plane of the tape. 12. Mainspring according to one of claims 1 to 11, characterized in that that the outer hook t2) is rolled up at its free end to form an eyelet (10) is. 13. Mainspring according to one of claims 4 to 12, characterized in that that between the outer hook (2) and the fold (3) a further fold (8) is provided is. 14. Mainspring according to claim 13, characterized in that the fold (8) is formed directed against the fold (3).